Abstract
Although dietary copper deficiency causes physiological, morphological, and biochemical abnormalities in cardiac mitochondria, the relationship observed between abnormalities of mitochondrial structure and function have been inconsistent in previous studies. The purpose of the present study was to re-evaluate the respiration rates of cardiac mitochondria from copper-deficient rats and to use several drugs that uncouple and inhibit mitochondrial respiration in order to clarify the mechanisms of mitochondrial dysfunction found in several laboratories. Copper deficiency reduced state 4 and state 3 cardiac mitochondrial respiration rates with all substrates tested. However, neither the ratio of ADP/oxygen consumed nor the acceptor control index was affected by copper deficiency. Cardiac mitochondria of copper-deficient rats showed a resistance to respiratory blockade by oligomycin and an increased ability to hydrolyze ATP in the presence of oligomycin compared with mitochondria of copper-adequate rats. This suggests that copper deficiency affects the function of the cardiac mitochondrial ATP synthase.
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